CN102750015A - Mouse with physiological parameter measurement function - Google Patents

Abstract

The invention provides a mouse with the function of measuring physiological parameters, which includes a body, a light source, a data processing unit and a display module. An opening is set on the body, and the light emitted by the light source is directed to the user through the opening. The data processing unit includes an infrared photoelectric Tube and data processing module, the photoelectric tube is used to collect the light reflected by the user, and generate a set of analog signals representing the user's heart rate information according to the intensity of the light, the data processing module receives the analog signal and processes it The user's heart rate data is obtained, and the display module is electrically connected with the data processing module to display the user's heart rate. The mouse with the function of measuring physiological parameters can monitor the physiological parameters of the user in real time, which is beneficial to the health of the user.

Description

A mouse with the function of measuring physiological parameters

technical field

The invention relates to a mouse, in particular to a mouse with the function of measuring physiological parameters.

Background technique

With the widespread use of computers, some people may experience physical discomfort during the use of computers. On the other hand, because the existing heart rate and temperature measuring devices are difficult to carry around, users cannot always understand their physiological conditions, and it is easy to cause high blood pressure, rapid heartbeat, and emotional stress due to long-term computer operation. If the existing physiological parameter measuring device can be integrated on the peripheral components of the computer, so that the user can know his own physiological state in real time, it will help the computer user to know his physical health state in real time.

Contents of the invention

In view of the above circumstances, it is necessary to provide a mouse with the function of measuring physiological parameters that can measure its own physiological health status in real time.

A mouse with the function of measuring physiological parameters, which includes a body, a light source, a data processing unit and a display module. An opening is set on the body, and the light emitted by the light source is directed to the user through the opening. The data processing unit includes an infrared photoelectric cell and a data processing unit. A processing module, the photocell is used to collect the light reflected by the user, and generate a set of analog signals representing the heart rate information of the user according to the intensity of the light, the data processing module receives the analog signals, and processes the analog signals To obtain the user's heart rate data, the display module is electrically connected with the data processing module to display the user's heart rate.

The mouse with physiological parameter measurement function of the present invention opens an opening on the body so that the light is reflected by the user and then received by the infrared photoelectric cell, and the data processing module obtains the user's heart rate data for real-time monitoring. The mouse with the function of measuring physiological parameters can measure the physical health status of computer users in real time, which is beneficial to the health of users.

Description of drawings

Fig. 1 is the perspective view of the mouse with physiological parameter measurement function of the preferred embodiment of the present invention;

Fig. 2 is a schematic plan view of the mouse with physiological parameter measurement function shown in Fig. 1;

FIG. 3 is a partial functional block diagram of the mouse shown in FIG. 1 with the function of measuring physiological parameters.

Description of main component symbols

A mouse with the function of measuring physiological parameters 100 body 10 to open 12 light source 20 light pipe 30 data processing unit 40 infrared photocell 42 Photoelectric Sensors 44 data processing module 46 display module 50 Alarm module 60

The following specific embodiments will further illustrate the present invention in conjunction with the above-mentioned drawings.

Detailed ways

Please refer to FIG. 1 and FIG. 3 , a preferred embodiment of the present invention provides a mouse 100 with a function of measuring physiological parameters, which is used to measure heart rate and temperature parameters of computer users.

The mouse 100 with the function of measuring physiological parameters includes a body 10 , a light source 20 , a light pipe 30 , a data processing unit 40 , a display module 50 and an alarm module 60 . The light source 20 , light pipe 30 , data processing unit 40 and alarm module 60 are housed in the body 10 . Both the display module 50 and the alarm module 60 are electrically connected to the data processing unit 40 .

Please refer to FIG. 2 in conjunction with FIG. 2 , an opening 12 is opened at approximately the highest position on the top of the body 10 , and when the user holds the mouse, the opening 12 is approximately opposite to the palm of the user.

The light source 20 can be an infrared light source of a traditional photoelectric mouse. One end of the light pipe 30 faces the light source 20 , and the other end communicates with the opening 12 on the body 10 . The light pipe 30 is used for converging the infrared light emitted by the light source 20 into a light beam, so as to irradiate the infrared light beam on the palm of the user through the opening 12 .

The data processing unit 40 includes an infrared photoelectric tube 42 , a photoelectric sensor 44 and a data processing module 46 . Both the infrared photoelectric tube 42 and the photoelectric sensor 44 are electrically connected to the data processing module 46 .

The infrared photoelectric cell 42 is disposed in the body 10 and opposite to the opening 12 for collecting the intensity of the infrared beam reflected from the user's palm. Usually with the beating of the heart, the translucency of human tissue changes, that is, when the blood is sent to the human tissue, the translucency of the tissue decreases, and the intensity of the infrared beam reflected by the user's palm will weaken; when the blood flows back to the heart , the translucency of the tissue increases, and the intensity of the infrared beam reflected by the user's palm will increase. The infrared photoelectric tube 42 is used to generate a set of analog signals representing the user's heart rate information according to the intensity of the collected infrared light beams, and send them to the data processing module 46 . Wherein, the frequency of the analog signal is directly proportional to the pulse rate of the human body per minute.

The photoelectric sensor 44 is arranged in the body 10 and opposite to the opening 12, and is used to collect the energy of the infrared beam reflected from the user's palm, and generate a set of analog signals representing the user's body temperature information according to the energy of the infrared beam. Signal. At the same time, the photoelectric sensor 44 transmits the analog signal to the data processing module 46 .

The data processing module 46 is used to convert the analog signal representing the user's heart rate information transmitted by the infrared photocell 42 into a group of pulse signals through analog-to-digital conversion, and obtain the user's heart rate data by shaping and counting the pulse signals. At the same time, the data processing module 46 is used to convert the analog signal representing the user's body temperature information sent by the photoelectric sensor 44 into a set of digital signals through analog-to-digital conversion, and then obtain the user's body temperature data. The data processing module 46 transmits the heart rate data and body temperature data to the display module 50 . On the other hand, the data processing module 46 presets the reference value of human heart rate and body temperature, and triggers a control signal to the alarm module 60 when detecting that the user's heart rate or body temperature is higher than the reference value. It can be understood that the reference value of the heart rate or body temperature can be set according to different users.

The display module 50 is used to display the heart rate data and body temperature data transmitted by the data processing module 46. It can be understood that the display module 50 can be a small liquid crystal display arranged on one side of the body 10, or a digital tube arranged in the body 10. . When the liquid crystal display module 50 is disposed in the body 10, the body 10 can be made of transparent materials.

The alarm module 60 is a buzzer, which is installed in the machine body 10 . After the alarm module 60 receives the control signal sent by the data processing module 46, it can remind the user to take a break by making a sound.

The working process of the mouse 100 with the function of measuring physiological parameters is described below with an example. First, when the user holds the mouse 100 with the function of measuring physiological parameters, the infrared light emitted by the light source 20 is converged into a beam through the light guide 30 , and then from the The opening 12 of the machine body 10 shoots out and shines on the palm of the user. Afterwards, the infrared light beam is reflected by the palm of the hand, passes through the opening 12 , and is received by the infrared photoelectric tube 42 and the photoelectric sensor 44 . The infrared photocell 42 generates a set of analog signals according to the intensity of the reflected infrared beam, and the photoelectric sensor 44 generates another set of analog signals according to the energy of the reflected infrared beam. Both sets of analog signals are sent to the data processing module 46 . The data processing module 46 processes the two sets of analog signals to obtain the user's heart rate data and body temperature data, which are displayed by the display module 50 . Finally, the data processing module 46 compares the detected heart rate data and body temperature data with the preset reference value, and if the detected heart rate data or body temperature data of the user is higher than the reference value, the alarm module 60 is controlled to give an alarm. Remind the user to take a break.

The light guide tube 30 of the mouse 100 with the physiological parameter measurement function of the present invention gathers infrared light, and utilizes the infrared photoelectric tube 42 and the photoelectric sensor 44 to receive the infrared beam reflected back by the user's palm, and then obtains the user's information through the data processing module 46. Heart rate and body temperature data for real-time monitoring. The mouse 100 with the function of measuring physiological parameters can measure the physiological health status of the user in real time, which is beneficial to the health of the user.

Claims (10)

1. mouse with physiological parameter measurement function; It comprises body and is located at the light source in the body that it is characterized in that: this mouse with physiological parameter measurement function also comprises data processing unit and display module, offers opening on this body; The light that light source sends is through opening directive user; This data processing unit comprises infrared photocell and data processing module, and this photoelectric tube is in order to gathering the light that is reflected by the user, and produces one group of simulating signal that characterizes user's heart rate information according to the power of light; This data processing module receives said simulating signal; And through handling this simulating signal to obtain user's heart rate data, this display module and data processing module electrically connect, to show user's heart rate.

2. the mouse with physiological parameter measurement function as claimed in claim 1; It is characterized in that: said mouse with physiological parameter measurement function also comprises a photoelectric sensor; This photoelectric sensor is in order to gathering the light that is reflected by the user, and produces one group of simulating signal that characterizes user's body temperature information according to the energy of light, and this data processing module is handled this simulating signal; To obtain user's temperature data, display module is in order to show this temperature data.

3. the mouse with physiological parameter measurement function as claimed in claim 1; It is characterized in that: said mouse with physiological parameter measurement function also comprises a light pipe; This light pipe is located in the body; One rectifies light source, and the other end communicates with opening, and this light pipe is used for the light that light source sends is pooled light beam.

4. the mouse with physiological parameter measurement function as claimed in claim 1; It is characterized in that: said data processing module changes in order to the simulating signal that infrared photocell is transmitted and converts set of pulses signal to, and carries out shaping, counting to obtain user's heart rate data through pulse signals.

5. the mouse with physiological parameter measurement function as claimed in claim 2 is characterized in that: said data processing module becomes the set of number signal in order to the analog signal conversion that photoelectric sensor is transmitted, to obtain user's temperature data.

6. like claim 4 or 5 described mouses with physiological parameter measurement function; It is characterized in that: the reference value of preset human heart rate of said data processing module and body temperature; When the heart rate that detects the user or body temperature were higher than reference value, this data processing module triggered a control signal.

7. the mouse with physiological parameter measurement function as claimed in claim 6; It is characterized in that: said mouse with physiological parameter measurement function also comprises alarm module; Said alarm module and data processing module electrically connect, and enable under the effect with the control signal that triggers at data processing module.

8. the mouse with physiological parameter measurement function as claimed in claim 1 is characterized in that: said display module is a LCD, and it is located at body one side.

9. the mouse with physiological parameter measurement function as claimed in claim 1 is characterized in that: said display module is a charactron, and it is located in the body.

10. the mouse with physiological parameter measurement function as claimed in claim 1 is characterized in that: said light source is an infrared light sources.

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